Quantitative Analysis (QA) new Revised CPA CIFA KASNEB notes

Quantitative Analysis (QA) new Revised CPA CIFA KASNEB notes

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1. Mathematical Techniques

1.1 Functions

1.1.1 Definition
1.1.2 Functions, equations, inequalities and graphs; linear, quadratic, cubic, Exponential and logarithmic functions
1.1.3 Application of mathematical functions in solving business problems

1.2 Matrix Algebra

1.2.1 Definition
1.2.2 Types and operations (addition, subtraction, multiplication, transposition and inversion of up to order 3×3)
1.2.3 Application of matrices; statistical modelling, Markov analysis, input-output analysis and general applications

1.3 Calculus

1.4 Differentiation

1.4.1 Definition
1.4.2 Rules of differentiation (general rule, chain, product, quotient)
1.4.3 Differentiation of exponential and logarithmic functions
1.4.4 Turning points (maxima, minima and inflexion)
1.4.5 Application of differentiation to business problems

1.5 Integration

1.5.1 Definition
1.5.2 Rules of integration (general rule)
1.5.3 Integration of exponential and logarithmic functions
1.5.4 Applications of integration to business problems

1.6 Descriptive Statistics

1.6.1 Measures of central tendency: mean: arithmetic mean, weighted arithmetic mean; geometric mean, harmonic mean, median and mode
1.6.2 Measures of dispersion: range, quartile, deciles, percentiles, mean deviation, standard deviation and coefficient of variation Measures of skewness: Pearson’s coefficient of skewness, product coefficient of skewness Measures of kurtosis: Pearson’s coefficient of kurtosis, product coefficient of kurtosis

2. Probability

2.1 Set Theory
2.2 Definition
2.3 Types of sets
2.4 Set description; enumeration and descriptive properties of sets
2.5 Venn diagrams (order – Venn diagrams precede operation of sets)
2.6 Operations of sets; union, intersection, complement and difference

2.7 Probability Theory and Distribution

2.7.1 Probability Theory
2.7.2 Definitions; event, outcome, experiment, sample space, probability space
2.7.3 Types of events: elementary, compound, dependent, independent, mutually exclusive, exhaustive, mutually inclusive
2.7.4 Laws of probability; additive and multiplicative laws
2.7.5 Conditional probability and probability trees
2.7.6 Expected value, variance, standard deviation and coefficient of variation using frequency and probability
2.7.7 Application of probability and probability distributions to business problems

2.8 Probability Distributions

2.8.1 Discrete and continuous probability distributions Z, F, test statistics (geometric, uniform, normal, t distribution, binomial, Poisson and exponential and chi-square)
2.8.2 Application of probability distributions to business problems

3. Hypothesis Testing and Estimation

3.1 The arithmetic mean and standard deviation
3.2 Hypothesis tests on the mean (when population standard deviation is unknown)
3.3 Hypothesis tests on proportions
3.4 Hypothesis tests on the difference between two proportions using Z and t statistics
3.5 Chi-Square tests of goodness of fit and independence
3.6 Hypothesis testing using R statistical software

4. Correlation and Regression Analysis

4.1 Correlation Analysis
4.1.1 Scatter diagrams
4.1.2 Measures of correlation – product-moment and rank correlation coefficients (Pearson and Spearman) using R software

5. Regression Analysis

5.1.1 Simple and multiple linear regression analysis
5.1.2 Assumptions of linear regression analysis
5.1.3 Coefficient of determination, standard error of the estimate, standard error of the slope, t and F statistics

6. Time series

6.1 Definition of time series
6.2 Components of time series (circular, seasonal, cyclical, irregular/ random, trend)
6.3 Application of time series
6.4 Methods of fitting trend; freehand, semi-averages, moving averages, least-squares methods
6.5 Models – additive and multiplicative models
6.6 Measurement of seasonal variation using additive and multiplicative models
6.7 Forecasting time series value using moving averages, ordinary least squares method and exponential smoothing

7. Linear programming

7.1 Definition of decision variables, objective function and constraints
7.2 Assumptions of linear programming
7.3 Solving linear programming using graphical method
7.4 Solving linear programming using simplex method (basic scenarios)

8. Decision Theory

8.1 Definition
8.2 Decision-making process
8.3 Decision-making environment; deterministic situation (certainty)
8.4 Decision making under risk – expected monetary value, expected opportunity loss, risk using the coefficient of variation, the expected value of perfect information
8.5 Decision trees – sequential decision, the expected value of sample information
8.6 Decision making under uncertainty – maximin, maximax, minimax regret, Hurwicz decision rule, Laplace decision rule.


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